J. Cumana, C. Lautensack, M. Eickelkamp, J. Goliasch, A. Noculak, A. Vescan, R. Jansen
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引用次数: 0
摘要
GaN hfet和mishfet是射频和微波功率应用中很有前途的功率器件。但是,在某些操作条件下,设备的性能可能会受到影响。从器件开发的角度来看,器件优化是获得最佳性能的必要条件。为了设备建模和设计的目的,需要对设备进行准确的表征和建模,以便预见设备在实际操作条件下的行为。本文将介绍一种改进的基于eehemt1的GaN mishfet模型。该模型能够准确地描述器件输出特性、色散效应以及栅极二极管行为的膝区。这些模型将被整合到一个开关模式放大器拓扑结构中,并将进行评估,以确定mishfet在这些放大器中的适用性。
Advanced Modeling of MISHFET Devices and their Performance in Current-Mode Class-D Power Amplifiers
GaN HFETs and MISHFETs are promising power devices for RF and microwave power applications. However, the performance of devices can be compromised under some operating conditions. From the device development point of view, device optimization is necessary to obtain the best possible performance. For device modeling and design purposes, the device needs to be characterized and modeled accurately in order to foresee how the device will behave under realistic operating conditions. In this paper, an improved EEHEMT1-based model for GaN MISHFETs, will be introduced. This model is capable of describing the knee region of the device's output characteristics, dispersion effects as well as gate diode behavior accurately. The models will be incorporated in a switched-mode amplifier topology and evaluations will be made to determine the suitability of MISHFETs in these amplifiers.
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